diff options
Diffstat (limited to '')
-rw-r--r-- | src/Interpreter.ml | 93 |
1 files changed, 82 insertions, 11 deletions
diff --git a/src/Interpreter.ml b/src/Interpreter.ml index c7598362..eede1268 100644 --- a/src/Interpreter.ml +++ b/src/Interpreter.ml @@ -669,13 +669,18 @@ let rec projections_intersect (ty1 : T.rty) (rset1 : T.RegionId.set_t) - [ty]: the type with regions which we use for the projection (to map borrows to regions - or to interpret the borrows as belonging to some regions...) - - TODO: we might want to take as parameter a list of definitions rather - than a context ([apply_proj_borrows] is called in a map visitor which - operates over a context...) + + Also, when applying projections on shared values, we need to apply + reborrows. This is a bit annoying because, with the way we compute + the projection on borrows, we can't update the context immediately. + Instead, we remember the list of borrows we have to insert in the + context *afterwards*. + TODO: implement this. *) -let rec apply_proj_borrows (ctx : C.eval_ctx) (regions : T.RegionId.set_t) - (v : V.typed_value) (ty : T.rty) : V.typed_avalue = +let rec apply_proj_borrows (ctx : C.eval_ctx) + (reborrows : (V.BorrowId.id * V.BorrowId.id) list ref) + (regions : T.RegionId.set_t) (v : V.typed_value) (ty : T.rty) : + V.typed_avalue = (* Sanity check - TODO: move this elsewhere (here we perform the check at every * recursive call which is a bit overkill...) *) let ety = Substitute.erase_regions ty in @@ -706,7 +711,7 @@ let rec apply_proj_borrows (ctx : C.eval_ctx) (regions : T.RegionId.set_t) let fields_types = List.combine adt.V.field_values field_types in let proj_fields = List.map - (fun (fv, fty) -> apply_proj_borrows ctx regions fv fty) + (fun (fv, fty) -> apply_proj_borrows ctx reborrows regions fv fty) fields_types in V.AAdt { V.variant_id = adt.V.variant_id; field_values = proj_fields } @@ -722,7 +727,7 @@ let rec apply_proj_borrows (ctx : C.eval_ctx) (regions : T.RegionId.set_t) match (bc, kind) with | V.MutBorrow (bid, bv), T.Mut -> (* Apply the projection on the borrowed value *) - let bv = apply_proj_borrows ctx regions bv ref_ty in + let bv = apply_proj_borrows ctx reborrows regions bv ref_ty in V.AMutBorrow (bid, bv) | V.SharedBorrow bid, T.Shared -> V.ASharedBorrow bid | V.InactivatedMutBorrow _, _ -> @@ -737,7 +742,7 @@ let rec apply_proj_borrows (ctx : C.eval_ctx) (regions : T.RegionId.set_t) match (bc, kind) with | V.MutBorrow (bid, bv), T.Mut -> (* Apply the projection on the borrowed value *) - let bv = apply_proj_borrows ctx regions bv ref_ty in + let bv = apply_proj_borrows ctx reborrows regions bv ref_ty in V.AIgnoredMutBorrow bv | V.SharedBorrow bid, T.Shared -> (* TODO: we need the context to lookup the value *) @@ -953,6 +958,60 @@ let end_borrow_get_borrow (io : inner_outer) Ok (ctx, !replaced_bc) with FoundOuter outers -> Error outers +(** Auxiliary function. See [give_back_value]. + + Apply reborrows to a context. + + The [reborrows] input is a list of pairs (shared loan id, id to insert in the shared loan). +*) +let apply_reborrows (reborrows : (V.BorrowId.id * V.BorrowId.id) list) + (ctx : C.eval_ctx) : C.eval_ctx = + (* This is a bit brutal, but whenever we insert a reborrow, we remove + * it from the list. This allows us to check that all the reborrows were + * applied before returning. + * We might reimplement that in a more efficient manner by using maps. *) + let reborrows = ref reborrows in + + let obj = + object + inherit [_] C.map_eval_ctx as super + + method! visit_loan_content env lc = + match lc with + | V.SharedLoan (bids, sv) -> + (* Retrieve the borrows to insert *) + let insert, reborrows' = + List.partition + (fun (bid, _) -> V.BorrowId.Set.mem bid bids) + !reborrows + in + reborrows := reborrows'; + let insert = List.map snd insert in + (* Insert the borrows *) + let bids = + List.fold_left + (fun bids bid -> V.BorrowId.Set.add bid bids) + bids insert + in + (* Update and explore *) + super#visit_SharedLoan env bids sv + | V.MutLoan bid -> + (* Nothing special to do *) + super#visit_MutLoan env bid + (** We reimplement [visit_loan_content] (rather than one of the sub- + functions) on purpose: exhaustive matches are good for maintenance *) + + method! visit_aloan_content env lc = raise Unimplemented + end + in + + (* Visit *) + let ctx = obj#visit_eval_ctx () ctx in + (* Check that there are no reborrows remaining *) + assert (!reborrows = []); + (* Return *) + ctx + (** Auxiliary function to end borrows. See [give_back_in_env]. When we end a mutable borrow, we need to "give back" the value it contained @@ -970,6 +1029,9 @@ let give_back_value (config : C.config) (bid : V.BorrowId.id) assert (not !replaced); replaced := true in + (* We sometimes need to reborrow values while giving a value back due *) + let reborrows : (V.BorrowId.id * V.BorrowId.id) list ref = ref [] in + let obj = object (self) inherit [_] C.map_eval_ctx as super @@ -1016,7 +1078,7 @@ let give_back_value (config : C.config) (bid : V.BorrowId.id) (* Register the insertion *) set_replaced (); (* Apply the projection *) - let given_back = apply_proj_borrows ctx regions nv ty in + let given_back = apply_proj_borrows ctx reborrows regions nv ty in (* Return the new value *) V.ALoan (V.AEndedMutLoan { given_back; child })) else @@ -1039,7 +1101,7 @@ let give_back_value (config : C.config) (bid : V.BorrowId.id) * mut loan. Also, this is not the loan we are looking for *per se*: * we don't register the fact that we inserted the value somewhere * (i.e., we don't call [set_replaced]) *) - let given_back = apply_proj_borrows ctx regions nv ty in + let given_back = apply_proj_borrows ctx reborrows regions nv ty in V.ALoan (V.AEndedIgnoredMutLoan { given_back; child }) else V.ALoan (super#visit_AIgnoredMutLoan opt_abs bid' child) | V.AEndedIgnoredMutLoan { given_back; child } -> @@ -1064,6 +1126,15 @@ let give_back_value (config : C.config) (bid : V.BorrowId.id) let ctx = obj#visit_eval_ctx None ctx in (* Check we gave back to exactly one loan *) assert !replaced; + (* Apply the reborrows *) + let ctx = + match config.C.mode with + | C.ConcreteMode -> + (* Reborrows are introduced when applying projections in symbolic mode *) + assert (!reborrows = []); + ctx + | C.SymbolicMode -> apply_reborrows !reborrows ctx + in (* Return *) ctx |